Issue 1, 2024

Photocatalytic ethane conversion on rutile TiO2(110): identifying the role of the ethyl radical

Abstract

Oxidative dehydrogenation of ethane (C2H6, ODHE) is a promising approach to producing ethene (C2H4) in the chemical industry. However, the ODHE needs to be operated at a high temperature, and realizing the ODHE under mild conditions is still a big challenge. Herein, using photocatalytic ODHE to obtain C2H4 has been achieved successfully on a model rutile(R)-TiO2(110) surface with high selectivity. Initially, the C2H6 reacts with hole trapped OTi centers to produce ethyl radicals Image ID:d3sc05623f-t1.gif, which can be precisely detected by a sensitive TOF method, and then the majority of the Image ID:d3sc05623f-t2.gif radicals spontaneously dehydrogenate into C2H4 without another photo-generated hole. In addition, parts of the Image ID:d3sc05623f-t3.gif radicals rebound with diversified surface sites to produce C2 products via migration along the surface. The mechanistic model built in this work not only advances our knowledge of the C–H bond activation and low temperature C2H6 conversion, but also provides new opportunities for realizing the ODHE with high C2H4 efficiency under mild conditions.

Graphical abstract: Photocatalytic ethane conversion on rutile TiO2(110): identifying the role of the ethyl radical

Supplementary files

Article information

Article type
Edge Article
Submitted
22 Oct 2023
Accepted
24 Nov 2023
First published
27 Nov 2023
This article is Open Access

All publication charges for this article have been paid for by the Royal Society of Chemistry
Creative Commons BY-NC license

Chem. Sci., 2024,15, 307-316

Photocatalytic ethane conversion on rutile TiO2(110): identifying the role of the ethyl radical

F. Li, Y. Lai, Y. Zeng, X. Chen, T. Wang, X. Yang and Q. Guo, Chem. Sci., 2024, 15, 307 DOI: 10.1039/D3SC05623F

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